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|
// Copyright 2018 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build race
#include "go_asm.h"
#include "go_tls.h"
#include "funcdata.h"
#include "textflag.h"
#include "asm_ppc64x.h"
// The following functions allow calling the clang-compiled race runtime directly
// from Go code without going all the way through cgo.
// First, it's much faster (up to 50% speedup for real Go programs).
// Second, it eliminates race-related special cases from cgocall and scheduler.
// Third, in long-term it will allow to remove cyclic runtime/race dependency on cmd/go.
// A brief recap of the ppc64le calling convention.
// Arguments are passed in R3, R4, R5 ...
// SP must be 16-byte aligned.
// Note that for ppc64x, LLVM follows the standard ABI and
// expects arguments in registers, so these functions move
// the arguments from storage to the registers expected
// by the ABI.
// When calling from Go to Clang tsan code:
// R3 is the 1st argument and is usually the ThreadState*
// R4-? are the 2nd, 3rd, 4th, etc. arguments
// When calling racecalladdr:
// R8 is the call target address
// The race ctx is passed in R3 and loaded in
// racecalladdr.
//
// The sequence used to get the race ctx:
// MOVD runtime·tls_g(SB), R10 // offset to TLS
// MOVD 0(R13)(R10*1), g // R13=TLS for this thread, g = R30
// MOVD g_racectx(g), R3 // racectx == ThreadState
// func runtime·RaceRead(addr uintptr)
// Called from instrumented Go code
TEXT runtime·raceread(SB), NOSPLIT, $0-8
MOVD addr+0(FP), R4
MOVD LR, R5 // caller of this?
// void __tsan_read(ThreadState *thr, void *addr, void *pc);
MOVD $__tsan_read(SB), R8
BR racecalladdr<>(SB)
TEXT runtime·RaceRead(SB), NOSPLIT, $0-8
BR runtime·raceread(SB)
// void runtime·racereadpc(void *addr, void *callpc, void *pc)
TEXT runtime·racereadpc(SB), NOSPLIT, $0-24
MOVD addr+0(FP), R4
MOVD callpc+8(FP), R5
MOVD pc+16(FP), R6
// void __tsan_read_pc(ThreadState *thr, void *addr, void *callpc, void *pc);
MOVD $__tsan_read_pc(SB), R8
BR racecalladdr<>(SB)
// func runtime·RaceWrite(addr uintptr)
// Called from instrumented Go code
TEXT runtime·racewrite(SB), NOSPLIT, $0-8
MOVD addr+0(FP), R4
MOVD LR, R5 // caller has set LR via BL inst
// void __tsan_write(ThreadState *thr, void *addr, void *pc);
MOVD $__tsan_write(SB), R8
BR racecalladdr<>(SB)
TEXT runtime·RaceWrite(SB), NOSPLIT, $0-8
JMP runtime·racewrite(SB)
// void runtime·racewritepc(void *addr, void *callpc, void *pc)
TEXT runtime·racewritepc(SB), NOSPLIT, $0-24
MOVD addr+0(FP), R4
MOVD callpc+8(FP), R5
MOVD pc+16(FP), R6
// void __tsan_write_pc(ThreadState *thr, void *addr, void *callpc, void *pc);
MOVD $__tsan_write_pc(SB), R8
BR racecalladdr<>(SB)
// func runtime·RaceReadRange(addr, size uintptr)
// Called from instrumented Go code.
TEXT runtime·racereadrange(SB), NOSPLIT, $0-16
MOVD addr+0(FP), R4
MOVD size+8(FP), R5
MOVD LR, R6
// void __tsan_read_range(ThreadState *thr, void *addr, uintptr size, void *pc);
MOVD $__tsan_read_range(SB), R8
BR racecalladdr<>(SB)
// void runtime·racereadrangepc1(void *addr, uintptr sz, void *pc)
TEXT runtime·racereadrangepc1(SB), NOSPLIT, $0-24
MOVD addr+0(FP), R4
MOVD size+8(FP), R5
MOVD pc+16(FP), R6
ADD $4, R6 // tsan wants return addr
// void __tsan_read_range(ThreadState *thr, void *addr, uintptr size, void *pc);
MOVD $__tsan_read_range(SB), R8
BR racecalladdr<>(SB)
TEXT runtime·RaceReadRange(SB), NOSPLIT, $0-16
BR runtime·racereadrange(SB)
// func runtime·RaceWriteRange(addr, size uintptr)
// Called from instrumented Go code.
TEXT runtime·racewriterange(SB), NOSPLIT, $0-16
MOVD addr+0(FP), R4
MOVD size+8(FP), R5
MOVD LR, R6
// void __tsan_write_range(ThreadState *thr, void *addr, uintptr size, void *pc);
MOVD $__tsan_write_range(SB), R8
BR racecalladdr<>(SB)
TEXT runtime·RaceWriteRange(SB), NOSPLIT, $0-16
BR runtime·racewriterange(SB)
// void runtime·racewriterangepc1(void *addr, uintptr sz, void *pc)
// Called from instrumented Go code
TEXT runtime·racewriterangepc1(SB), NOSPLIT, $0-24
MOVD addr+0(FP), R4
MOVD size+8(FP), R5
MOVD pc+16(FP), R6
ADD $4, R6 // add 4 to inst offset?
// void __tsan_write_range(ThreadState *thr, void *addr, uintptr size, void *pc);
MOVD $__tsan_write_range(SB), R8
BR racecalladdr<>(SB)
// Call a __tsan function from Go code.
// R8 = tsan function address
// R3 = *ThreadState a.k.a. g_racectx from g
// R4 = addr passed to __tsan function
//
// Otherwise, setup goroutine context and invoke racecall. Other arguments already set.
TEXT racecalladdr<>(SB), NOSPLIT, $0-0
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_racectx(g), R3 // goroutine context
// Check that addr is within [arenastart, arenaend) or within [racedatastart, racedataend).
MOVD runtime·racearenastart(SB), R9
CMP R4, R9
BLT data
MOVD runtime·racearenaend(SB), R9
CMP R4, R9
BLT call
data:
MOVD runtime·racedatastart(SB), R9
CMP R4, R9
BLT ret
MOVD runtime·racedataend(SB), R9
CMP R4, R9
BGT ret
call:
// Careful!! racecall will save LR on its
// stack, which is OK as long as racecalladdr
// doesn't change in a way that generates a stack.
// racecall should return to the caller of
// recalladdr.
BR racecall<>(SB)
ret:
RET
// func runtime·racefuncenterfp()
// Called from instrumented Go code.
// Like racefuncenter but doesn't pass an arg, uses the caller pc
// from the first slot on the stack.
TEXT runtime·racefuncenterfp(SB), NOSPLIT, $0-0
MOVD 0(R1), R8
BR racefuncenter<>(SB)
// func runtime·racefuncenter(pc uintptr)
// Called from instrumented Go code.
// Not used now since gc/racewalk.go doesn't pass the
// correct caller pc and racefuncenterfp can do it.
TEXT runtime·racefuncenter(SB), NOSPLIT, $0-8
MOVD callpc+0(FP), R8
BR racefuncenter<>(SB)
// Common code for racefuncenter/racefuncenterfp
// R11 = caller's return address
TEXT racefuncenter<>(SB), NOSPLIT, $0-0
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_racectx(g), R3 // goroutine racectx aka *ThreadState
MOVD R8, R4 // caller pc set by caller in R8
// void __tsan_func_enter(ThreadState *thr, void *pc);
MOVD $__tsan_func_enter(SB), R8
BR racecall<>(SB)
RET
// func runtime·racefuncexit()
// Called from Go instrumented code.
TEXT runtime·racefuncexit(SB), NOSPLIT, $0-0
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_racectx(g), R3 // goroutine racectx aka *ThreadState
// void __tsan_func_exit(ThreadState *thr);
MOVD $__tsan_func_exit(SB), R8
BR racecall<>(SB)
// Atomic operations for sync/atomic package.
// Some use the __tsan versions instead
// R6 = addr of arguments passed to this function
// R3, R4, R5 set in racecallatomic
// Load atomic in tsan
TEXT sync∕atomic·LoadInt32(SB), NOSPLIT, $0-12
GO_ARGS
// void __tsan_go_atomic32_load(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic32_load(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
RET
TEXT sync∕atomic·LoadInt64(SB), NOSPLIT, $0-16
GO_ARGS
// void __tsan_go_atomic64_load(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic64_load(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
RET
TEXT sync∕atomic·LoadUint32(SB), NOSPLIT, $0-12
GO_ARGS
BR sync∕atomic·LoadInt32(SB)
TEXT sync∕atomic·LoadUint64(SB), NOSPLIT, $0-16
GO_ARGS
BR sync∕atomic·LoadInt64(SB)
TEXT sync∕atomic·LoadUintptr(SB), NOSPLIT, $0-16
GO_ARGS
BR sync∕atomic·LoadInt64(SB)
TEXT sync∕atomic·LoadPointer(SB), NOSPLIT, $0-16
GO_ARGS
BR sync∕atomic·LoadInt64(SB)
// Store atomic in tsan
TEXT sync∕atomic·StoreInt32(SB), NOSPLIT, $0-12
GO_ARGS
// void __tsan_go_atomic32_store(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic32_store(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
TEXT sync∕atomic·StoreInt64(SB), NOSPLIT, $0-16
GO_ARGS
// void __tsan_go_atomic64_store(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic64_store(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
TEXT sync∕atomic·StoreUint32(SB), NOSPLIT, $0-12
GO_ARGS
BR sync∕atomic·StoreInt32(SB)
TEXT sync∕atomic·StoreUint64(SB), NOSPLIT, $0-16
GO_ARGS
BR sync∕atomic·StoreInt64(SB)
TEXT sync∕atomic·StoreUintptr(SB), NOSPLIT, $0-16
GO_ARGS
BR sync∕atomic·StoreInt64(SB)
// Swap in tsan
TEXT sync∕atomic·SwapInt32(SB), NOSPLIT, $0-20
GO_ARGS
// void __tsan_go_atomic32_exchange(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic32_exchange(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
TEXT sync∕atomic·SwapInt64(SB), NOSPLIT, $0-24
GO_ARGS
// void __tsan_go_atomic64_exchange(ThreadState *thr, uptr cpc, uptr pc, u8 *a)
MOVD $__tsan_go_atomic64_exchange(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
TEXT sync∕atomic·SwapUint32(SB), NOSPLIT, $0-20
GO_ARGS
BR sync∕atomic·SwapInt32(SB)
TEXT sync∕atomic·SwapUint64(SB), NOSPLIT, $0-24
GO_ARGS
BR sync∕atomic·SwapInt64(SB)
TEXT sync∕atomic·SwapUintptr(SB), NOSPLIT, $0-24
GO_ARGS
BR sync∕atomic·SwapInt64(SB)
// Add atomic in tsan
TEXT sync∕atomic·AddInt32(SB), NOSPLIT, $0-20
GO_ARGS
// void __tsan_go_atomic32_fetch_add(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic32_fetch_add(SB), R8
ADD $64, R1, R6 // addr of caller's 1st arg
BL racecallatomic<>(SB)
// The tsan fetch_add result is not as expected by Go,
// so the 'add' must be added to the result.
MOVW add+8(FP), R3 // The tsa fetch_add does not return the
MOVW ret+16(FP), R4 // result as expected by go, so fix it.
ADD R3, R4, R3
MOVW R3, ret+16(FP)
RET
TEXT sync∕atomic·AddInt64(SB), NOSPLIT, $0-24
GO_ARGS
// void __tsan_go_atomic64_fetch_add(ThreadState *thr, uptr cpc, uptr pc, u8 *a);
MOVD $__tsan_go_atomic64_fetch_add(SB), R8
ADD $64, R1, R6 // addr of caller's 1st arg
BL racecallatomic<>(SB)
// The tsan fetch_add result is not as expected by Go,
// so the 'add' must be added to the result.
MOVD add+8(FP), R3
MOVD ret+16(FP), R4
ADD R3, R4, R3
MOVD R3, ret+16(FP)
RET
TEXT sync∕atomic·AddUint32(SB), NOSPLIT, $0-20
GO_ARGS
BR sync∕atomic·AddInt32(SB)
TEXT sync∕atomic·AddUint64(SB), NOSPLIT, $0-24
GO_ARGS
BR sync∕atomic·AddInt64(SB)
TEXT sync∕atomic·AddUintptr(SB), NOSPLIT, $0-24
GO_ARGS
BR sync∕atomic·AddInt64(SB)
// CompareAndSwap in tsan
TEXT sync∕atomic·CompareAndSwapInt32(SB), NOSPLIT, $0-17
GO_ARGS
// void __tsan_go_atomic32_compare_exchange(
// ThreadState *thr, uptr cpc, uptr pc, u8 *a)
MOVD $__tsan_go_atomic32_compare_exchange(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
TEXT sync∕atomic·CompareAndSwapInt64(SB), NOSPLIT, $0-25
GO_ARGS
// void __tsan_go_atomic32_compare_exchange(
// ThreadState *thr, uptr cpc, uptr pc, u8 *a)
MOVD $__tsan_go_atomic64_compare_exchange(SB), R8
ADD $32, R1, R6 // addr of caller's 1st arg
BR racecallatomic<>(SB)
TEXT sync∕atomic·CompareAndSwapUint32(SB), NOSPLIT, $0-17
GO_ARGS
BR sync∕atomic·CompareAndSwapInt32(SB)
TEXT sync∕atomic·CompareAndSwapUint64(SB), NOSPLIT, $0-25
GO_ARGS
BR sync∕atomic·CompareAndSwapInt64(SB)
TEXT sync∕atomic·CompareAndSwapUintptr(SB), NOSPLIT, $0-25
GO_ARGS
BR sync∕atomic·CompareAndSwapInt64(SB)
// Common function used to call tsan's atomic functions
// R3 = *ThreadState
// R4 = TODO: What's this supposed to be?
// R5 = caller pc
// R6 = addr of incoming arg list
// R8 contains addr of target function.
TEXT racecallatomic<>(SB), NOSPLIT, $0-0
// Trigger SIGSEGV early if address passed to atomic function is bad.
MOVD (R6), R7 // 1st arg is addr
MOVD (R7), R9 // segv here if addr is bad
// Check that addr is within [arenastart, arenaend) or within [racedatastart, racedataend).
MOVD runtime·racearenastart(SB), R9
CMP R7, R9
BLT racecallatomic_data
MOVD runtime·racearenaend(SB), R9
CMP R7, R9
BLT racecallatomic_ok
racecallatomic_data:
MOVD runtime·racedatastart(SB), R9
CMP R7, R9
BLT racecallatomic_ignore
MOVD runtime·racedataend(SB), R9
CMP R7, R9
BGE racecallatomic_ignore
racecallatomic_ok:
// Addr is within the good range, call the atomic function.
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_racectx(g), R3 // goroutine racectx aka *ThreadState
MOVD R8, R5 // pc is the function called
MOVD (R1), R4 // caller pc from stack
BL racecall<>(SB) // BL needed to maintain stack consistency
RET //
racecallatomic_ignore:
// Addr is outside the good range.
// Call __tsan_go_ignore_sync_begin to ignore synchronization during the atomic op.
// An attempt to synchronize on the address would cause crash.
MOVD R8, R15 // save the original function
MOVD R6, R17 // save the original arg list addr
MOVD $__tsan_go_ignore_sync_begin(SB), R8 // func addr to call
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_racectx(g), R3 // goroutine context
BL racecall<>(SB)
MOVD R15, R8 // restore the original function
MOVD R17, R6 // restore arg list addr
// Call the atomic function.
// racecall will call LLVM race code which might clobber r30 (g)
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_racectx(g), R3
MOVD R8, R4 // pc being called same TODO as above
MOVD (R1), R5 // caller pc from latest LR
BL racecall<>(SB)
// Call __tsan_go_ignore_sync_end.
MOVD $__tsan_go_ignore_sync_end(SB), R8
MOVD g_racectx(g), R3 // goroutine context g should sitll be good?
BL racecall<>(SB)
RET
// void runtime·racecall(void(*f)(...), ...)
// Calls C function f from race runtime and passes up to 4 arguments to it.
// The arguments are never heap-object-preserving pointers, so we pretend there are no arguments.
TEXT runtime·racecall(SB), NOSPLIT, $0-0
MOVD fn+0(FP), R8
MOVD arg0+8(FP), R3
MOVD arg1+16(FP), R4
MOVD arg2+24(FP), R5
MOVD arg3+32(FP), R6
JMP racecall<>(SB)
// Finds g0 and sets its stack
// Arguments were loaded for call from Go to C
TEXT racecall<>(SB), NOSPLIT, $0-0
// Set the LR slot for the ppc64 ABI
MOVD LR, R10
MOVD R10, 0(R1) // Go expectation
MOVD R10, 16(R1) // C ABI
// Get info from the current goroutine
MOVD runtime·tls_g(SB), R10 // g offset in TLS
MOVD 0(R13)(R10*1), g // R13 = current TLS
MOVD g_m(g), R7 // m for g
MOVD R1, R16 // callee-saved, preserved across C call
MOVD m_g0(R7), R10 // g0 for m
CMP R10, g // same g0?
BEQ call // already on g0
MOVD (g_sched+gobuf_sp)(R10), R1 // switch R1
call:
MOVD R8, CTR // R8 = caller addr
MOVD R8, R12 // expected by PPC64 ABI
BL (CTR)
XOR R0, R0 // clear R0 on return from Clang
MOVD R16, R1 // restore R1; R16 nonvol in Clang
MOVD runtime·tls_g(SB), R10 // find correct g
MOVD 0(R13)(R10*1), g
MOVD 16(R1), R10 // LR was saved away, restore for return
MOVD R10, LR
RET
// C->Go callback thunk that allows to call runtime·racesymbolize from C code.
// Direct Go->C race call has only switched SP, finish g->g0 switch by setting correct g.
// The overall effect of Go->C->Go call chain is similar to that of mcall.
// RARG0 contains command code. RARG1 contains command-specific context.
// See racecallback for command codes.
TEXT runtime·racecallbackthunk(SB), NOSPLIT, $-8
// Handle command raceGetProcCmd (0) here.
// First, code below assumes that we are on curg, while raceGetProcCmd
// can be executed on g0. Second, it is called frequently, so will
// benefit from this fast path.
XOR R0, R0 // clear R0 since we came from C code
CMP R3, $0
BNE rest
// g0 TODO: Don't modify g here since R30 is nonvolatile
MOVD g, R9
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_m(g), R3
MOVD m_p(R3), R3
MOVD p_raceprocctx(R3), R3
MOVD R3, (R4)
MOVD R9, g // restore R30 ??
RET
// This is all similar to what cgo does
// Save registers according to the ppc64 ABI
rest:
MOVD LR, R10 // save link register
MOVD R10, 16(R1)
MOVW CR, R10
MOVW R10, 8(R1)
MOVDU R1, -336(R1) // Allocate frame needed for outargs and register save area
MOVD R14, 328(R1)
MOVD R15, 48(R1)
MOVD R16, 56(R1)
MOVD R17, 64(R1)
MOVD R18, 72(R1)
MOVD R19, 80(R1)
MOVD R20, 88(R1)
MOVD R21, 96(R1)
MOVD R22, 104(R1)
MOVD R23, 112(R1)
MOVD R24, 120(R1)
MOVD R25, 128(R1)
MOVD R26, 136(R1)
MOVD R27, 144(R1)
MOVD R28, 152(R1)
MOVD R29, 160(R1)
MOVD g, 168(R1) // R30
MOVD R31, 176(R1)
FMOVD F14, 184(R1)
FMOVD F15, 192(R1)
FMOVD F16, 200(R1)
FMOVD F17, 208(R1)
FMOVD F18, 216(R1)
FMOVD F19, 224(R1)
FMOVD F20, 232(R1)
FMOVD F21, 240(R1)
FMOVD F22, 248(R1)
FMOVD F23, 256(R1)
FMOVD F24, 264(R1)
FMOVD F25, 272(R1)
FMOVD F26, 280(R1)
FMOVD F27, 288(R1)
FMOVD F28, 296(R1)
FMOVD F29, 304(R1)
FMOVD F30, 312(R1)
FMOVD F31, 320(R1)
MOVD R3, FIXED_FRAME+0(R1)
MOVD R4, FIXED_FRAME+8(R1)
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_m(g), R7
MOVD m_g0(R7), R8
CMP g, R8
BEQ noswitch
MOVD R8, g // set g = m-> g0
BL runtime·racecallback(SB)
// All registers are clobbered after Go code, reload.
MOVD runtime·tls_g(SB), R10
MOVD 0(R13)(R10*1), g
MOVD g_m(g), R7
MOVD m_curg(R7), g // restore g = m->curg
ret:
MOVD 328(R1), R14
MOVD 48(R1), R15
MOVD 56(R1), R16
MOVD 64(R1), R17
MOVD 72(R1), R18
MOVD 80(R1), R19
MOVD 88(R1), R20
MOVD 96(R1), R21
MOVD 104(R1), R22
MOVD 112(R1), R23
MOVD 120(R1), R24
MOVD 128(R1), R25
MOVD 136(R1), R26
MOVD 144(R1), R27
MOVD 152(R1), R28
MOVD 160(R1), R29
MOVD 168(R1), g // R30
MOVD 176(R1), R31
FMOVD 184(R1), F14
FMOVD 192(R1), F15
FMOVD 200(R1), F16
FMOVD 208(R1), F17
FMOVD 216(R1), F18
FMOVD 224(R1), F19
FMOVD 232(R1), F20
FMOVD 240(R1), F21
FMOVD 248(R1), F22
FMOVD 256(R1), F23
FMOVD 264(R1), F24
FMOVD 272(R1), F25
FMOVD 280(R1), F26
FMOVD 288(R1), F27
FMOVD 296(R1), F28
FMOVD 304(R1), F29
FMOVD 312(R1), F30
FMOVD 320(R1), F31
ADD $336, R1
MOVD 8(R1), R10
MOVFL R10, $0xff // Restore of CR
MOVD 16(R1), R10 // needed?
MOVD R10, LR
RET
noswitch:
BL runtime·racecallback(SB)
JMP ret
// tls_g, g value for each thread in TLS
GLOBL runtime·tls_g+0(SB), TLSBSS+DUPOK, $8
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